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Comprehensive efforts of this nature, which range from synthesis to mechanical studies, are rare, and are found at only a few laboratories around the world.

The polymer program in agile additive manufacturing is second to none. The objectives of the powder processing program of Cu-Ta is to retain nanoscale structure in cryogenic powder-processed materials.

This effort has produced materials exhibiting unique properties over a wide range of strain rates, from those characteristic of creep conditions to the dynamic ballistic behavior.

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Particularly interesting is their flow strength exhibiting no strain-rate dependence over the range of to per second. The microstructures presented with no microstructural evolution and without deformation substructures upon impact at pressures of about 15 GPa.

Sciences for Lethality and Protection In the battlefield injury mechanisms area, the management has created a comprehensive program, with talented, energetic scientists who provide the skills needed to define this area.

This is an excellent start, and ARL is to be commended and encouraged to continue to grow this area. In the directed energy area, the work on exploiting Raman laser to greatly improve fiber power output is exceptional and is an archetype for research at ARL that compliments other Department of Defense DoD laboratories while not duplicating academic or industrial research.

Other exceptional work is the nonlinear optical materials and coatings that are frequency-agile in the visible spectrum toward passively protecting Army optical sensors from directed energy laser threats such as that from straight damage, jamming, and dazzling.

In the area of effects on targets, including ballistics and blast, the experimental work and forensic analysis connecting threat to injury to armor design is outstanding. The comprehensive analysis conducted on armor plates obtained from soldiers is particularly impressive.

Also, the quantification of noise, resolution, and uncertainty in digital image correlation DIC for dynamic loading impact applications is also exceptional. In the flight navigation, guidance, and control area, ARL is leading in the focused application of highly maneuverable munitions.

There is potential for breakthrough operational capability for enhanced moving target acquisition, intercept, and neutralization. Information Sciences Some of the reviewed projects are deserving of special mention. The research program in electric and magnetic field sensing is a strong program overall. This is a comprehensive and strongly interconnected program with projects in sensor development, validation, calibration, algorithm design, and field deployment.

Strong mentorship by senior scientists has effectively grown an impressive cohort of next- generation scientists to sustain this effort.

Systems design

The private sector partnerships and commercialization activities are also notable. Another project related to the detection and characterization of chemical aerosols has successfully demonstrated a laser-based technique for isolating, detecting, and identifying the chemical compositions of micron-size particles of multiple phases with unprecedented speed and accuracy.

The work is exceptional and novel, and it has the ability to revolutionize the aerosol science field as well as all industries and technologies that rely on aerosol science. Ongoing work related to the meteorological sensor array MSA will enable unprecedented continuous examination of atmospheric phenomena crucial to understanding of atmospheric flows over complex terrain at high horizontal resolution.

The unique data that will result from the full deployment of MSA and its instruments as well as the opportunity to engage multiple partners are factors that contribute to the high impact of the project.

The plan to place this facility next to the Network Science Research Laboratory and to include it as part of the open campus is expected to facilitate collaborative research and promote innovative solutions to challenge problems.

The research on tactical optical communications and hybrid communication networks is exceptional for its synergistic blend of theoretical modeling to understand fundamental UV communications properties, and as an experimental test-bed demonstration to show the proof of concept of both UV communications and heterogeneous RF-UV communications.

Transition plans are clear, and the researchers show a very good understanding of Army-specific needs and system requirements. Impressive research leadership of this strong program has produced clear and compelling research presentation and poster materials and effective mentorship of early-career scientists.

The system-level understanding of Army needs, and corresponding system designs and theoretical analyses, are very impressive. This is a strong and comprehensive research program that is expected to lead to significant performance improvements to Army-relevant communication systems. Computational Sciences The work presented in the predictive sciences combines machine learning within large simulations to optimize multiscale model computations with the hierarchical multiscale HMS work, with positive results and a promising future.

The data-intensive sciences work on neuromorphic processing and cooperative reinforcement learning was excellent. The data-intensive sciences team has shown a strong start in the new research thrust in machine learning.

Alongside operating and managing high-performance computing HPC systems to serve the processing needs of the broader DoD community, the advanced architecture group has evolved to focus on tactical high-performance computing at the edge, having made significant progress in evaluating the role of neuromorphic computing to enable high-fidelity computation using many low-precision elements and very low energy.

Sciences for Maneuver In the vehicle intelligence area, several research programs are outstanding. Three research programs stand out: research on low-ranked representation learning of action attributes flexibility and extensibility in focusing on human action attributes; research on autonomous mobile information collection using a value of information-enriched belief approach projected functional stochastic gradient-based approach with teams of robots ; and research and simulation work on the Wingman Software Integration Laboratory, which has a clear path to Army-relevant static and dynamic scenarios and multiple-machine and multiple-human interactions.

Flight tests have shown considerable promise; a key focus now seems to be determining the weakest links in the understanding of such systems and of the most significant hurdles to improve the system performance. The basic capability, assuming that it is flexible enough to encompass other systems, promises to be very valuable.

Another significant work on learning and adjusting weights for linear quadratic regulators control design based on energy and agility metrics focused on a system comprising a hover to flight of a UAS biplane with four rotors. This effort constitutes a valuable exploration of the ability to address major design changes to improve the system performance. The work would be strengthened by identification of details in the cascade break-up process and determination of different domains with regard to the cascade path.

Fluent application of engineering techniques, tools and resources. Effective oral and written communication in professional and lay domains. Design, construct and test digital systems.

Apply microprocessor programming principles to design microprocessor based systems with emphasis on embedded controllers. Develop computer system design concepts, particularly the relationship between hardware and software on system performance.

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Develop testing procedures to verify the performance of design specifications, diagnosis of faults in hardware and software and completion of the commission. Additional CLOs at Bachelor level: 1. Implement combinatorial logic and sequential systems in terms of basic digital building blocks using simulation software.

Recognize the key features of embedded systems in terms of computer hardware and be able to discuss their functions. Plus, we regularly update and improve textbook solutions based on student ratings and feedback, so you can be sure you're getting the latest information available. Our interactive player makes it easy to find solutions to Digital Principles And Design 1st Edition problems you're working on - just go to the chapter for your book.

Hit a particularly tricky question? Bookmark it to easily review again before an exam. The best part? As a Chegg Study subscriber, you can view available interactive solutions manuals for each of your classes for one low monthly price.With necessary example and diagram explain the concept of reduction of state and flow tables. Implement the switching functions: Digital Principles and Logic Design A.

Define Combinational circuit. Indeed, our bankruptcy system implicitly relies on this informal discouragement. All brand names and product names mentioned in this book are trademarks or service marks of their respective companies. Bubbled AND gate is equal to Without such careful design, it is easy to accidentally produce asynchronous logic that is "unstable," that is, real electronics will have unpredictable results because of the cumulative delays caused by small variations in the values of the electronic components.

In addition to flipflops a register can have a combinational part that performs data processing tasks.